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Scalable macroporous hydrogels enhance stem cell treatment of volumetric muscle loss

去细胞化 自愈水凝胶 生物医学工程 再生(生物学) 组织工程 细胞外基质 材料科学 再生医学 骨骼肌 干细胞 体内 细胞生物学 解剖 医学 生物 生物技术 高分子化学
作者
Ioannis Eugenis,Di Wu,Caroline Hu,Gladys Chiang,Ngan F. Huang,Thomas A. Rando
出处
期刊:Biomaterials [Elsevier BV]
卷期号:290: 121818-121818 被引量:43
标识
DOI:10.1016/j.biomaterials.2022.121818
摘要

Volumetric muscle loss (VML), characterized by an irreversible loss of skeletal muscle due to trauma or surgery, is accompanied by severe functional impairment and long-term disability. Tissue engineering strategies combining stem cells and biomaterials hold great promise for skeletal muscle regeneration. However, scaffolds, including decellularized extracellular matrix (dECM), hydrogels, and electrospun fibers, used for VML applications generally lack macroporosity. As a result, the scaffolds used typically delay host cell infiltration, transplanted cell proliferation, and new tissue formation. To overcome these limitations, we engineered a macroporous dECM-methacrylate (dECM-MA) hydrogel, which we will refer to as a dECM-MA sponge, and investigated its therapeutic potential in vivo. Our results demonstrate that dECM-MA sponges promoted early cellularization, endothelialization, and establishment of a pro-regenerative immune microenvironment in a mouse VML model. In addition, dECM-MA sponges enhanced the proliferation of transplanted primary muscle stem cells, muscle tissue regeneration, and functional recovery four weeks after implantation. Finally, we investigated the scale-up potential of our scaffolds using a rat VML model and found that dECM-MA sponges significantly improved transplanted cell proliferation and muscle regeneration compared to conventional dECM scaffolds. Together, these results validate macroporous hydrogels as novel scaffolds for VML treatment and skeletal muscle regeneration.
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